Superstorm Sandy illustrated the economic and human impact that severe weather can have on urban areas such as New York City. While flooding and wind damaged or destroyed some of the energy infrastructure, all installed microgrids in the New York City region remained operational during Sandy, including those at Princeton University, Goldman Sachs, New York University, and Co-op City. The resilience provided by these microgrids sparked renewed interest in pursuing more microgrid deployments as means to increase resiliency throughout the nation and in the face of many potential threats, including severe weather events, and potentially terrorism.

MIT Lincoln Laboratory has been engaged with the U.S. Department of Homeland Security, the U.S. Department of Energy and the City of Boston in this Community Energy Study to explore the potential for microgrid deployment within Boston’s thriving neighborhoods. Using hourly simulated building energy data for every building in Boston, provided by the Sustainable Design Lab on MIT campus, MIT Lincoln Laboratory was able to develop an approach that can identify zones within the city where microgrids could be implemented with a high return on investment in terms of resiliency, offering both cost savings and social benefit in the face of grid outages. An important part of this approach leverages a microgrid optimization tool developed by Lawrence Berkeley National Laboratory, with whom the MIT Lincoln Laboratory is now collaborating on microgrid modeling work. Using the microgrid optimization tool, along with building energy use data, 42 community microgrids were identified, including 10 multiuser microgrids, 10 energy justice microgrids and 22 emergency microgrids.

Eric Morgan is a member of the Technical Staff in the Energy Systems Group at MIT Lincoln Laboratory. At LL, Eric works on adding renewable energy and energy storage to tactical DoD microgrids and has researched microgrid development for the City of Boston. Additionally, Eric does research on novel direct energy conversion devices; renewable fuel synthesis; and cutting edge solid fuel-powered systems. Prior to LL, Eric worked as a post-doctoral researcher at Northern Arizona University where he helped pioneer marine energy harvesting techniques for ocean sensing; designed and assembled a mobile methanol synthesis unit; researched solar irradiance smoothing in large photovoltaic plants; and analyzed wind power systems for the production of ammonia fertilizer.

Free and Open to the Public – No Registration Required Visit the IEEE PES Boston Chapter website for further details http://www.ieeepesboston.org/

If you have any questions, please contact Amsa (781-907-3565) or Subhadarshi (781-907-2483)

Entrepreneur’s Network One of the most obvious and challenging key requirements for the success of an early stage entrepreneurial company is securing funding. This meeting is focused on learning how to win potential investors with the right pitch deck and presentation. That is, does the deck articulate a vision, the …